Cytogenetic techniques in current biomedical research. PART III: numerical alterations of human karyotype

A. Volkov, O. I. Rytenkova
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引用次数: 2

Abstract

Numerical abnormalities of karyotype are the result of genome mutations. Unlike gene and chromosomal abnormalities, genome mutations do not disrupt the structure of DNA or chromosomes. The cause of numerical changes in the karyotype is a violation of the mechanism of chromosome segregation during meiosis or mitosis. Like other mutations, genome mutations are a natural mechanism for increasing of genetic diversity in offspring. At the same time, humans usually have negative effects of any numerical deviations from the norm, for this reason, cytogenetic examination of aneuploidies is an important diagnostic tool in medical genetics.A change in the number of sex chromosomes is usually not lethal. The spectrum of detected deviations in the carrier is from inconstant impairment of reproduction but a normal phenotype to malformations of some internal organs, infertility and severe intellectual disabilities. Aneuploidies of autosomes are always a threat to life and health. Only autosomal trisomies on chromosomes 13, 18, 21 and 22 are compatible with live birth, there are solitary reports of the birth of children with polyploidies. At the same time, the prognosis of life is relatively favorable only in the case of trisomy 21, leading to the formation of Down syndrome. Other aneuploidies usually lead to spontaneous termination of pregnancy in the early stages and are discovered in samples of abortion material.In this regard, cytogenetic analysis of chromosomal aneuploidies is used to establish the genetic cause of anomalies and malformations in the postnatal period, delays in speech and psychomotor development, reproduction disorders in adults. Of particular importance is the cytogenetic analysis of the karyotype of embryos in the prenatal period. The proposed lecture analyzes the mechanism of formation of genomic mutations and their diversity. The possible medical consequences of the presence of various types of aneuploidies are considered. To the reader attention is offered syndromes associated with a change in the number of chromosomes in the karyotype. The description is illustrated by real images of patient karyotypes.The lecture is aimed primarily at students of medical and biological specialties, young specialists who plan to use cytogenetic research methods in their practical activities, and doctors who are faced with the need to analyze and interpret the results of cytogenetic analysis. To assimilate the material under discussion, it is recommended to familiarize yourself with the previous lecture of the cycle.
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当前生物医学研究中的细胞遗传学技术。第三部分:人类核型的数值改变
核型的数值异常是基因组突变的结果。与基因和染色体异常不同,基因组突变不会破坏DNA或染色体的结构。核型数值变化的原因是在减数分裂或有丝分裂期间染色体分离机制的破坏。与其他突变一样,基因组突变是增加后代遗传多样性的自然机制。同时,人类通常会受到任何数值偏离标准的负面影响,因此,非整倍体的细胞遗传学检查是医学遗传学的重要诊断工具。性染色体数量的改变通常不是致命的。在携带者中检测到的偏差范围从不稳定的生殖障碍但表型正常到某些内脏器官畸形,不孕症和严重的智力残疾。常染色体的非整倍体一直是对生命和健康的威胁。只有13、18、21和22号染色体上的常染色体三体与活产相适应,有单独的多倍体儿童出生的报道。同时,只有在21三体的情况下,生活预后相对有利,导致唐氏综合征的形成。其他非整倍体通常在早期导致自然终止妊娠,并在流产材料样本中发现。在这方面,染色体非整倍体的细胞遗传学分析用于确定出生后异常和畸形、语言和精神运动发育迟缓、成人生殖障碍的遗传原因。特别重要的是产前胚胎核型的细胞遗传学分析。本讲座将分析基因组突变的形成机制及其多样性。考虑了各种类型的非整倍体存在的可能的医学后果。对读者的注意是提供综合征在核型染色体的数量的变化有关。该描述由患者核型的真实图像说明。讲座主要针对医学和生物专业的学生,计划在实际活动中使用细胞遗传学研究方法的年轻专家,以及需要分析和解释细胞遗传学分析结果的医生。为了吸收所讨论的材料,建议你熟悉这一周期的前一节课。
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